Bungalow capable of being easily installed and disassembled

ABSTRACT

The present invention relates to a bungalow, particularly, a large-sized bungalow which is capable of being easily installed and disassembled, has no gaps between each component of the bungalow when assembled, is firmly fixed so as to prevent movement after installation, and is not damaged or does not collapse due to external impact or heavy rain or snow.

TECHNICAL FIELD

The present invention relates to a bungalow, particularly, a large-sizedbungalow which is capable of being easily installed and disassembled,has no gaps between each component of the bungalow when assembled, isfirmly fixed so as to prevent movement after installation, and is notdamaged or does not collapse due to external impact or heavy rain orsnow.

BACKGROUND ART

The bungalow is a kind of an architecture in the tropical region andrepresents an accommodation at a resort, which in general is made in theform of a wooden 2-floor building and ventilates well since it is madeof palm tree leaves or reed leaves. In Korea, such a bungalow representsa temporal small size building which is commonly build near a beach orother tourist attraction spots for the sake of temporal visitors.

Most of the bungalows are made of wooden materials, so building wallsand a roof costs a lot, and it takes long time to construct suchbungalows.

In particular, the demand for the bungalow increases during the peakseason, for example, holidays, however it is very hard to manage andmaintain the bungalow during the non-peak season since the demand forthe bungalow is almost less.

In addition, the bungalow may be recognized as a building, but itinevitably needs to damage natural environment in order to build thebungalows, so it is hard to supply more bungalows to the guest duringthe peak seasons.

DISCLOSURE OF INVENTION Technical Problem

The present invention was invented in an effort to overcome theabove-mentioned shortcoming. It is an object of the present invention toprovide a large-sized bungalow which can be easily installed anddisassembled, by means of which it is possible to quickly install andsupply more bungalows to guests during the most peak season when thereis much demand for the bungalows, in such a way to provide a bungalowwhich can be easily installed and disassembled, and during the non-peakseason, the installed bungalow can be folded and easily stored in awarehouse.

In addition, it is another object of the present invention to provide alarge-sized bungalow which can be easily installed and disassembled,wherein the present invention can provide a large-sized bungalow whichcan be easily installed and disassembled and can allow holiday guests,for example, families, to use without feeling any inconvenience, and anygaps don't form between each component of the installed bungalow, so thebungalow couldn't move by wind or external force, and the bungalowcouldn't collapse or be damaged even there is heavy rain or heave snow.

Solution to Problem

To achieve the above objects, there is provided a bungalow capable ofbeing easily installed and disassembled, comprising a canopy whichincludes a ridge pole outer member which supports, at top, a ridge andalong which a center slide engaging unit slides; a ridge pole innermember which has on its lower side a center lower engaging unit and isinserted in the inside of the lower side of the ridge pole outer memberand slides in and out of the ridge pole outer member; legs which havecorner engaging units at tops and corner slide engaging units whichslide along the legs, thus forming 4 corners of the canopy; a first ribouter member an end of one side of which is hinged at the ridge and inwhich the support member engaging unit inserts and slides; a first ribinner member which inserts in the inside of an end of the other side ofthe first rib outer member and slides in and out, wherein an end of thefirst rib inner member is hinged at a joint; a second rib member an endof one side of which is hinged at the joint, and an end of the otherside of which is hinged at the corner engaging unit, wherein an engagingmember engaging unit inserts and slides; a reinforcing member one sideof which is hinged at a reinforcing member engaging unit and the otherside of which is hinged at the corner slide engaging unit, thussupporting the rib member; and an X-link wherein both ends of the X-linkconnected in series through the 2-branched engaging unit are hinged atthe corner engaging unit and the corner slide engaging unit, thusforming the sides of the canopy; a support member to the top and bottomof which a corner engaging unit is engaged, respectively, and the legsof the canopy are inserted, thus forming 4 corners of the raised floor;an X-link wherein both ends of the X-link connected in series throughthe 3-branched engaging unit are hinged at the corner engaging unit ofthe top and bottom of each support member, thus forming the sides of theraised floor; a raised floor which each end of the X-link formed in agrid shape as the 4-branched link engaging unit and the X-link arerepeatedly and continuously connected is hinged at the 3-branched linkengaging unit; and an upper layer which is placed on the top of theraised floor.

At this time, a protrusion type stopper is formed at the reinforcingunit.

In addition, a slide groove is formed on both side of the joint, and tothe joint, the cover is engaged, wherein the cover has a cross sectionshaped like

, and a protrusion which is formed on an inner side of the bottom and isinserted in the slide groove of the joint.

In addition, the ends of the first rib inner member and the second ribmember both hinged at the joint are formed in a semicircular shape, andan outer surface of a semicircular end contacts with the inner surfaceof the joint, and an end of the reinforcing member hinged at thereinforcing member engaging unit is formed in a semicircular shape, andan outer surface of the end of the semicircular reinforcing membercontacts with the inner surface of the reinforcing member engaging unit.

In addition, a hook is formed at the center slide engaging unit, so theridge pole inner member is fixed at the ridge pole outer member.

In addition, a hook is formed at the corner slide engaging unit andfixes the corner slide engaging unit at the leg in a state where thecanopy is unfolded.

In addition, the hook is configured in such a way that a protrusionprotrudes into the inside of the engaging unit, and the protrusionprotruding into the inside of the body of the hook is elasticallysupported by a spring disposed inside of the body, and engaged withhandle when the handle is pulled, the protrusion is inserted in theinside of the hook body, and when the handle is released, the protrusionprotrudes into the inside of the insertion member by means of elasticforce of the spring.

In addition, a 3-branched link engaging unit is engaged to anintermediate portion of the X-link forming 4 sides of the canopy, and anend of one side of the X-link connected in series through the 2-branchedlink engaging unit is hinged at the 3-branched link engaging unit, andan end of the other side of the X-link is hinged at the center slideengaging unit and the center lower engaging unit.

In addition, there is further provided a support member one side ofwhich is hinged at the support member engaging unit, and the other sideof which is hinged at the center lower engaging unit, thus supportingthe rib member.

In addition, a hook is formed at a lower side of the leg, and anextending leg is inserted into the inner side of the bottom of the leg.

Effects of the Invention

In the present invention, the large-sized bungalow can be easilyinstalled and disassembled, the bungalow can be easily installed andprovided to guests during the most peak season when there is much demandfor the bungalows, and during the non-peak season, the bungalow can befolded and be easily stored in a warehouse.

In addition, the present invention provides a large-sized bungalow whichcan be easily installed and disassembled an is large enough for holidayguests, for example, families, to use, and since no gaps form betweeneach component of the bungalow, the bungalow couldn't move by wind orexternal impact, and the bungalow couldn't collapse or be damaged eventhough there is heavy rain or heavy snow.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view depicting a state where a large bungalow,which can be easily installed and disassembled, is unfolded according tothe present invention.

FIG. 2 is a perspective view depicting a state where a large bungalow,which can be easily installed and disassembled, is folded according tothe present invention.

FIG. 3 is a perspective view depicting a state where a canopy of abungalow is unfolded according to the present invention.

FIG. 4 is a perspective view depicting a state where a canopy of abungalow is folded according to the present invention.

FIG. 5 is a view depicting key components in a state where a canopy isunfolded.

FIG. 6 is a view depicting key components in a state where a canopy isfolded.

FIG. 7 is a perspective view depicting a canopy in a state where acenter support unit is engaged.

FIG. 8 is a perspective view depicting a joint of a rib member.

FIG. 9 is a cross sectional view depicting a joint to show a state wherea rib member and a joint are engaged.

FIG. 10 is a cross sectional view depicting a state where a reinforcingmember and a reinforcing member engaging unit are engaged.

FIG. 11 is a perspective view depicting a corner slide engaging unitwith a hook.

FIG. 12 is a cross sectional view depicting a hook which is formed at acenter slide engaging unit.

FIG. 13 is a perspective view depicting a state where a raised floor ofa bungalow is unfolded according to the present invention.

FIG. 14 is a perspective view depicting a state where a raised floor ofa bungalow is folded according to the present invention.

FIG. 15 is a perspective view depicting a 4-branced link engaging unit.

FIG. 16 is a perspective view depicting a 3-branched link engaging unit.

FIG. 17 is a perspective view depicting a corner engaging unit.

DESCRIPTIONS OF REFERENCE NUMBERS OF KEY COMPONENTS IN THE DRAWINGS

-   -   100: Canopy    -   101: Ridge    -   102: Ridge pole outer member    -   103: Ridge pole inner member    -   104: Center slide engaging unit    -   105: Center lower engaging unit    -   106: First rib outer member    -   107: First rib inner member    -   108: Second rib    -   109: Rib member    -   110: Support member    -   111: Support member engaging unit    -   112: Joint    -   113: Slide groove    -   114: Cover    -   115: Reinforcing member engaging unit    -   116: Stopper    -   117: Reinforcing member    -   118: Corner engaging unit    -   119: Corner slide engaging unit    -   120: X-link    -   121: 2-branched link engaging unit    -   122: 3-branched link engaging unit    -   123: Leg    -   124: Extending leg    -   125: Center support member    -   126: Insertion member    -   130: Hook    -   131: Handle    -   132: Protrusion    -   133: Body    -   200: Raised floor    -   201: Upper layer    -   202: X-link    -   203: Support member    -   204: Corner engaging unit    -   205: 3-branced link engaging unit    -   206: 4-branched link engaging unit

BEST MODE FOR CARRYING OUT THE INVENTION

The large-sized bungalow, which can be easily installed anddisassembled, according to the present invention will be described withreference to the accompanying drawings.

FIG. 1 is a perspective view depicting a state where a large bungalow,which can be easily installed and disassembled, is unfolded according tothe present invention. FIG. 2 is a perspective view depicting a statewhere a large bungalow, which can be easily installed and disassembled,is folded according to the present invention. FIG. 3 is a perspectiveview depicting a state where a canopy of a bungalow is unfoldedaccording to the present invention. FIG. 4 is a perspective viewdepicting a state where a canopy of a bungalow is folded according tothe present invention. FIG. 5 is a view depicting key components in astate where a canopy is unfolded. FIG. 6 is a view depicting keycomponents in a state where a canopy is folded. FIG. 7 is a perspectiveview depicting a canopy in a state where a center support unit isengaged. FIG. 8 is a perspective view depicting a joint of a rib member.FIG. 9 is a cross sectional view depicting a joint to show a state wherea rib member and a joint are engaged. FIG. 10 is a cross sectional viewdepicting a state where a reinforcing member and a reinforcing memberengaging unit are engaged. FIG. 11 is a perspective view depicting acorner slide engaging unit with a hook. FIG. 12 is a cross sectionalview depicting a hook which is formed at a center slide engaging unit.FIG. 13 is a perspective view depicting a state where a raised floor ofa bungalow is unfolded according to the present invention. FIG. 14 is aperspective view depicting a state where a raised floor of a bungalow isfolded according to the present invention. FIG. 15 is a perspective viewdepicting a 4-branced link engaging unit. FIG. 16 is a perspective viewdepicting a 3-branched link engaging unit. FIG. 17 is a perspective viewdepicting a corner engaging unit.

The large-sized bungalow which can be easily installed and disassembledaccording to the present invention, as depicted in FIGS. 1 and 2,include a raised floor 200 spread over the ground, and a canopy 100which is engaged to the top of the raised floor 200.

The canopy 100, as depicted in FIG. 3, includes four legs 123, and aridge 101 formed in the center of the four legs 123. Each of the legs123 is connected through the rib member 109 to the ridge 101, thusforming the canopy 100.

As for the canopy 100 in more details, a ridge pole outer member 102 anda ridge pole inner member 103 both supporting the ridge 101 are formedin the center of the canopy 100.

The ridge pole inner member 103 is configured to slide in the inside ofthe ridge pole outer member 102 on the lower side of the ride pole outermember 102. When the canopy 100 spreads out, the ridge pole inner member103 is inserted into the inside of the ridge pole outer member 102, sothe ridge inner member 103, as depicted in FIG. 5, is not seen fromoutside, and when the canopy 100 is folded, the ridge pole inner member103, as depicted in FIG. 6, protrudes from the ridge pole outer member102, so it becomes visible to eyes.

At the lower end of the ridge pole outer member 102, a center slideengaging unit 104 is engaged sliding along the ridge pole outer member102, and the center lower engaging unit 105 is fixedly engaged at thelower end of the ridge pole inner member 103.

The legs 123 are formed in the four corners of the canopy 100. In theleg 123, as depicted in FIG. 3, a corner engaging unit 118 is formed atthe top of each of the legs 123, and the corner slide engaging unit 119is disposed, which can slide along the leg 123.

The X-link 120 connected in series using the 2-branched link engagingunit 121 is hinged at the corner engaging unit 118 engaged to the top ofthe legs 123 and at the corner slide engaging unit 119 which slidesalong the leg 123, thus forming four sides of the canopy 100.

In the x-link 120, two rods are hinged in the center.

In the canopy 100, as depicted in FIG. 3, the four X-links 120 areconnected in series using the 2-branched link engaging unit 121, thusforming the sides of the canopy 100.

In addition, there are provided rib members 109 connecting the fourcorners of the ridge 101 and the canopy 100. The rib member 109 isformed of a first rib member and a second rib member 108.

The first rib member is formed of a first rid outer member 106 and afirst rib inner member 107. The first rib inner member 107 is insertedin the inside of the first rib outer member 106 and slides in and out ofthe first rib outer member 106.

An end of one side of the first rib outer member 106 is hinged at theridge 101, and into an end of the other side of the first rib outermember 106, the first rib inner member 107 is inserted, and the end ofthe first rib inner member 107 is hinged at the joint 112.

In addition, an end of one side of the second rib member 108 is hingedat the joint 112, and an end of the other side of the second rib member108 is hinged at the corner engaging unit 118.

A reinforcing member engaging unit 115 fixedly engaged to the second ribmember 108 is formed at the second rib member 108, and one side of thereinforcing member 117 is hinged at the reinforcing member engaging unit115. The other side of the reinforcing member 117 is hinged at thecorner slide engaging unit 119 which slides along the leg 123.

When the canopy 100 spread out, the reinforcing members 117 aresupported by the legs, thus supporting the rib members 109, so it ispossible to prevent any sagging and damages of the rib members 109 dueto external weight or impacts.

In addition, an end of one side of the support member 110 is hinged atthe support member engaging unit 111 fixedly engaged to the first ribouter member 106, and an end of the other side of the support member 110is hinged at the center lower engaging unit 105 engaged to the lower endof the ridge support inner member 103.

The support member 110 is supported by the ridge pole 101 and plays arole of preventing the sagging or damages of the rib members 109.

In the canopy 100, the rib members 109 most receive load. In case of thelarge size canopy 100 according to the present invention, the ribmembers 109 may be easily sagged or damaged by even minute impacts. Bothsides of the rib member 109 are supported by the reinforcing member 117and the support member 110, thus distributing the loads which apply tothe rib members 109, so it is possible to stably support the loads whichapply to the rib members 109 of the canopy 100.

As depicted in FIGS. 3 and 5, when the canopy 100 is folded, the canopy100 is folded as depicted in FIGS. 4 and 6, thus reducing the entirevolume. When the canopy 100 is folded as in FIGS. 4 and 6, the ribmembers 109 are folded about the joints 112. At this time, when thejoints 112 are bent, the first rib inner member 107 slides in the insideof the first rib outer member 106, and the first rib outer member 106hinged at the ridge 101 rotates downward, and the support member 110hinged at the support member engaging unit 111 fixedly engaged at thefirst rib outer member 106 moves the center lower engaging unit 105downward.

As the center lower engaging unit 105 slides downward, the ridge poleinner member 103 inserted in the inside of the ridge pole outer member106 slides and separates, so the first rib outer member 106 and thesupport member 110 are folded.

In addition, as the canopy 100 is folded, the second rib member 108hinged at the corner engaging unit 118 rotates downward, and thereinforcing member 117 hinged at the reinforcing member engaging unit115 fixedly engaged to the second rib member 108 pushes the corner slideengaging unit 119, so the corner slide engaging unit 119 slides downwardalong the leg 123, and the second rib member 108 and the reinforcingmember 117 are folded.

The extending leg 124 is inserted in the inside of the lower end of theleg 123, thus raising the height of the canopy 100. When the canopy 100is folded, the hook 130 formed at the lower end of the leg 123 isunhooked, and the extending leg 124 can be inserted in the inside of theleg 123, thus contracting the length.

The stopper 116 which protrudes from the reinforcing member 117 allowsto smoothly unfold the canopy 100 when the folded canopy 100 spreadsout.

The stopper 116 is installed at the reinforcing member 117, and when thecanopy 100 is folded, the stopper 116, as depicted in FIG. 6, contactswith the leg 123 and guides the reinforcing member 117 to widen at apredetermined angle with respect to the leg 123, thus facilitatingeasier unfolding when the canopy 100 spreads out.

In case of absence of the stopper 116, the enter axes of the reinforcingmember 117 and the leg 123 become parallel. If the canopy 100 spreadsout in this state, the second rib member 108, the reinforcing member 117and the leg 123 cross one another, for which a problem may occur sincethe canopy 100 does not spread out well.

Therefore, the stopper 116 is preferably provided in the earliermentioned way, thus forming a triangular configuration with the aid ofthe second rib member 108, the leg 123 and the reinforcing member 117,so the canopy 100 can smoothly spread out when unfolding the canopy 100.

As depicted in FIG. 3, the X-link 120 is connected in series through the2-branched link engaging unit 121, so both ends thereof are hinged atthe corner engaging unit 118 and the corner slide engaging unit 119 ofthe leg 123. One side of the X-link 120, which is connected in series,is hinged at the 3-branched link engaging unit 122 engaged at theintermediate portion of the X-link 120 which is connected in series, andthe other side of the X-link 120 is hinged at the center slide engagingunit 104 and at the center lower engaging unit 105 of each ridge pole,so the loads concentrating at the ridge 101 can distribute, and thecanopy 100 can stably support the loads.

In case where a large size canopy 100 is provided, the center supportmember 125, as depicted in FIG. 7, is inserted in an insertion port (notdepicted) at the lower end of the center lower engaging unit 105, so thecenter support member 125 can stably support the loads which apply tothe ridge 101 and the rib member 109.

Even though the large size canopy 100 is provided by installing thecenter support member 125 on the lower side of the ridge pole, the loadswhich apply to the ridge 101 of the canopy 100 and the rib member 109can be effectively supported, thus building a stable canopy 100.

When the canopy 100 spreads out, as depicted in FIG. 8, a cover 114 thecross section of which looks like

is engaged at the joint 112, so that the canopy 100 can effectivelysupport external impact or loads, and it is preferred that the canopy100 is configured not to swing or move by external load or impact.

As depicted in FIG. 8, a slide groove 113 is formed on both sides of thebody of the joint 112 which hinges the first rib inner member 107 andthe second rib member 108, and a protrusion (not depicted) is formed onthe inner side of both lower sides of the cover 114. In this state, ifthe cover 114 is engaged at the joint 112 in the way as depicted in FIG.8, the protrusion of the cover 114 inserts in the slide groove 113 ofthe joint 112, so the cover 114 can be fixed at the joint 112.

When loads apply to the rib member 109, the first rib inner member 107and the second rib member 108 might bend a little about the joint 112,and the canopy 100 might swing. As described above, it is possible toprevent the first rib inner member 107 and the second rib member 108from bending by loads or impact by engaging the cover 114 to the joint112, so the canopy 100 can be effectively prevented from swinging byimpacts or loads.

As depicted in FIG. 5, in an effort to stably support the loads whichapply to the reinforcing member 117 which supports the rib member 109,the hook 130, as depicted in FIG. 5, is provided at the corner slideengaging unit 119, and hole (not depicted) is formed at the leg 123.Therefore, when the canopy 100 spreads out, the hook 130 fixes thecorner slier engaging unit 119 at the leg 123, thus effectivelysupporting external impacts or loads, while preventing the canopy 100from moving by external loads or impacts.

As depicted in FIG. 11, in the hook 130, a handle 131 sliding along thehook body 133 is formed on one side of the corner slide engaging unit119, and a protrusion 132 protrudes from an inner side of the insertionmember 126 of the corner slide engaging unit 119.

The protrusion 132 is elastically supported by a spring (not depicted)and in the inside of the body 133 of the hook 130, elastically protudesinto the inside of the insertion member 126 or is inserted into theinside of the body 133 of the hook 130. Here, the protrusion 132 isconnected to the handle 131 and in the inside of the body 133 of thehook 130. When the user pulls the handle 131, the protrusion 132 insertsin the inside of the body 133, and when the user releases the handle131, the protrusion 132 protrudes into the inside of the insertionmember 126.

The thusly constituted hook 130, as depicted in FIG. 12, is provided atthe center slide engaging unit 104. When the canopy 100 spreads out, theridge pole inner member 103 inserts in the inside of the ridge poleouter member 102. When the hole (not depicted) of the ridge pole innermember 103 is arranged matching with the hole (not depicted) punched outat the ridge pole outer member 102, the protrusion 132 of the hook 130inserts into the matching holes, so the ridge pole outer member 102 andthe ridge pole inner member 103 are fixed, not moving with respect toeach other, thus effectively supporting external impacts or loads, whilepreventing the canopy 100 from moving due to external loads or impacts.

In addition, as depicted in FIG. 9, the ends of the first rib innermember 107 and the second rib member 108 both hinged at the joint 112are formed in semicircular shapes, and the outer surfaces of thesemicircular ends contact with the inner surface of the joint 112.

In the above configuration, since the first rib inner member 107 and thesecond rib member 108 contact with the inner surface of the joint 112,no gaps are formed, thus effectively preventing any movements of thecanopy 100.

In the same way, as depicted in FIG. 10, the end of the reinforcingmember 17 hinged at the reinforcing member engaging unit 115 engaged tothe second rib member 108 is formed in a semicircular shape, and theouter surface at the end of the reinforcing member 117 is configured torotate contacting with the inner surface of the reinforcing memberengaging unit 115, which makes it possible to effectively supportexternal impacts or loads, and the canopy 100 does not swing by externalloads or impacts.

The thusly constituted canopy 100 is engaged to the top of the raisedfloor 200, thus forming a bungalow. The raised floor 200, as depicted inFIG. 13, may be configured in such a way that the support members 203 towhich the corner engaging units 204 as depicted in FIG. 17 are engagedon its upper and lower sides form four corners of the raised floor 200.Both ends of the X-link 202 connected in series through the 3-branchedlink engaging unit 205 in FIG. 16 are hinged at the corner engaging unit204 engaged to the top and bottom of the support member 203, by whichthe X-link, which is connected in series, forms 4 sides of the raisedfloor 200.

As not depicted in the drawings, the support member 203 is formed of asupport member outer member (not depicted) and a support member (innermember), and the corner engaging unit 203 is engaged to the top of thesupport member outer member, and the support member inner member slidesin and out of the inside on the lower side of the support member outermember, and the corner engaging unit 204 is engaged to the end of thesupport member inner member.

In addition, each end formed in the grid shape as the X-link 202 iscontinuously hinged through the 4-branched link engaging unit 206 inFIG. 15 and is configured in a grid shape and as the X-link 202 iscontinuously hinged through the 4-branched link engaging unit 206 and isconfigured in a grid shape is hinged at the 3-branched link engagingunit 205 of the X-link 202, which is connected in series, forming 4sides of the raised floor 200, so the raised floor formed in a go boardwhen viewing from the top as depicted in FIG. 13

In addition, a predetermined number of the upper plates 201 are placedon the top of the raised floor 200, thus forming the raised floor 200.

The leg 123 or the extending leg 124 of the canopy 100 is inserted inthe engaging grooves (not depicted) of the support member 203 and of thecorner engaging unit 204 of the raised floor 200, thus forming abungalow of the present invention as depicted in FIG. 1.

The thusly constituted bungalow of the present invention can beinstalled separate from the canopy 100 and the raised floor 200 for thesake of separate use. The bungalow, as depicted in FIG. 1, may bemanufactured and used by simply engaging the canopy 100 and the raisedfloor 200.

In addition, if the canopy 100 and the raised floor 200, as depicted inFIG. 1, are folded in a state where the canopy 100 and the raised floor200 are engaged, they, as depicted in FIG. 2, can be easily folded, forexample, even in a state where the canopy 100 and the raised floor 200are engaged, so installation and disassembling are easy, and carryingand storage are very easy.

Since the large-sized bungalow according to the present invention can beeasily installed or disassembled, as many bungalows as possible can bequickly installed during the peak season when there is a lot of demandfor bungalows, thus providing the guests. It is advantageous that thebungalows can be folded during the non-peak season and can be easilystored.

In addition, the bungalows of the present invention can be easilyinstalled and disassembled and can provide a space big enough for theguests, for example, families, to use and no gaps are formed betweeneach component of the bungalow, so the bungalow does not move by wind orexternal impact and could not collapse or could not be damaged due toheavy rain or heavy snow while stably withstanding such impacts.

The large-sized bungalow which can be easily installed and disassembledaccording to the present invention, so far, has been described.

It should be understood that the technical configuration of the presentinvention can be implemented in other forms by those who have skills inthe art without changing technical concepts and essential features.

Therefore, the embodiments so far described are provided forillustrative purposes, not limiting to the disclosures. It is should beinterpreted that the scope of the present invention may be defined bythe claims below, not by the detailed descriptions, and all the changesor modifications deriving from the meaning of the claims below and theequivalent concepts belong to the scope of the present invention.

1. A large-sized bungalow capable of being easily installed anddisassembled, comprising: a canopy 100 which includes: a ridge poleouter member 102 which supports, at top, a ridge 101 and along which acenter slide engaging unit 104 slides; a ridge pole inner member 103which has on its lower side a center lower engaging unit 105 and isinserted in the inside of the lower side of the ridge pole outer member102 and slides in and out of the ridge pole outer member 102; legs 123which have corner engaging units 118 at tops and corner slide engagingunits 119 which slide along the legs 123, thus forming 4 corners of thecanopy 100; a first rib outer member 106 an end of one side of which ishinged at the ridge 101 and in which the support member engaging unit111 inserts and slides; a first rib inner member 107 which inserts inthe inside of an end of the other side of the first rib outer member 106and slides in and out, wherein an end of the first rib inner member 107is hinged at a joint 112; a second rib member 108 an end of one side ofwhich is hinged at the joint 112, and an end of the other side of whichis hinged at the corner engaging unit 118, wherein an engaging memberengaging unit 115 inserts and slides; a reinforcing member 117 one sideof which is hinged at a reinforcing member engaging unit 115 and theother side of which is hinged at the corner slide engaging unit 119,thus supporting the rib member 109; and an X-link 120 wherein both endsof the X-link 120 connected in series through the 2-branched engagingunit 121 are hinged at the corner engaging unit 118 and the corner slideengaging unit 119, thus forming the sides of the canopy; a supportmember 203 to the top and bottom of which a corner engaging unit 204 isengaged, respectively, and the legs 123 of the canopy 100 are inserted,thus forming 4 corners of the raised floor 200; an X-link 202 whereinboth ends of the X-link 202 connected in series through the 3-branchedengaging unit 205 are hinged at the corner engaging unit 204 of the topand bottom of each support member 203, thus forming the sides of theraised floor 200; a raised floor 200 which each end of the X-link 202formed in a grid shape as the 4-branched link engaging unit 206 and theX-link 202 are repeatedly and continuously connected is hinged at the3-branched link engaging unit 205; and an upper layer 201 which isplaced on the top of the raised floor
 200. 2. The large-sized bungalowof claim 1 capable of being easily installed and disassembled 1, whereina protrusion type stopper 116 is formed at the reinforcing unit
 117. 3.The large-sized bungalow capable of being easily installed anddisassembled of claim 1, wherein a slide groove 113 is formed on bothside of the joint 112, and to the joint 112, the cover 114 is engaged,wherein the cover 114 has a cross section shaped like

, and a protrusion which is formed on an inner side of the bottom and isinserted in the slide groove 113 of the joint
 112. 4. The large-sizedbungalow capable of being easily installed and disassembled of claim 1,wherein the ends of the first rib inner member 107 and the second ribmember 108 both hinged at the joint 112 are formed in a semicircularshape, and an outer surface of a semicircular end contacts with theinner surface of the joint 112, and an end of the reinforcing member 117hinged at the reinforcing member engaging unit 115 is formed in asemicircular shape, and an outer surface of the end of the semicircularreinforcing member 117 contacts with the inner surface of thereinforcing member engaging unit
 115. 5. The large-sized bungalowcapable of being easily installed and disassembled capable of beingeasily installed and disassembled of claim 1, wherein a hook 130 isformed at the center slide engaging unit 104, so the ridge pole innermember 103 is fixed at the ridge pole outer member
 102. 6. Thelarge-sized bungalow capable of being easily installed and disassembledof claim 1, wherein a hook 130 is formed at the corner slide engagingunit 119 and fixes the corner slide engaging unit 118 at the leg 123 ina state where the canopy 100 is unfolded.
 7. The large-sized bungalowcapable of being easily installed and disassembled of claim 6, whereinthe hook 130 is configured in such a way that a protrusion 132 protrudesinto the inside of the engaging unit 126, and the protrusion 132protruding into the inside of the body 133 of the hook 130 iselastically supported by a spring disposed inside of the body 133, andengaged with the handle when the handle 131 is pulled, the protrusion132 is inserted in the inside of the hook body 133, and when the handle131 is released, the protrusion 132 protrudes into the inside of theinsertion member 126 by means of elastic force of the spring.
 8. Thelarge-sized bungalow capable of being easily installed and disassembledof claim 1, wherein a 3-branched link engaging unit 122 is engaged to anintermediate portion of the X-link 120 forming 4 sides of the canopy100, and an end of one side of the X-link 120 connected in seriesthrough the 2-branched link engaging unit 121 is hinged at the3-branched link engaging unit 122, and an end of the other side of theX-link 120 is hinged at the center slide engaging unit 104 and thecenter lower engaging unit
 105. 9. The large-sized bungalow capable ofbeing easily installed and disassembled of claim 1, further comprising:a support member 110 one side of which is hinged at the support memberengaging unit 111, and the other side of which is hinged at the centerlower engaging unit 105, thus supporting the rib member
 109. 10. Thelarge-sized bungalow capable of being easily installed and disassembledof claim 1, wherein a hook 130 is formed at a lower side of the leg 123,and an extending leg 124 is inserted into the inner side of the bottomof the leg
 123. 11. The large-sized bungalow capable of being easilyinstalled and disassembled of claim 5, wherein the hook 130 isconfigured in such a way that a protrusion 132 protrudes into the insideof the engaging unit 126, and the protrusion 132 protruding into theinside of the body 133 of the hook 130 is elastically supported by aspring disposed inside of the body 133, and engaged with the handle whenthe handle 131 is pulled, the protrusion 132 is inserted in the insideof the hook body 133, and when the handle 131 is released, theprotrusion 132 protrudes into the inside of the insertion member 126 bymeans of elastic force of the spring.